Induction of specific histamine release from basophils with purified natural and recombinant birch pollen allergens.

As much as 15% of the population in industrialized countries suffers from type I allergic symptoms (rhinitis, conjunctivitis, and bronchial asthma). One approach toward this disease involves the production of recombinant allergens in Escherichia coli and their purification for diagnostic and therapeutic purposes. In this study we compared the IgE-binding capacity of natural and recombinant birth allergens with their functional ability to release histamine from allergic patients' basophils via cross-linking of high-affinity Fc epsilon-receptors.

Distribution of allergens and allergen-coding mRNAs in various tissues of white birch.

The distribution of allergenic proteins was investigated in various tissues of white birch, Betula verrucosa (pollen, leaves and male inflorescences containing immature pollen). In addition, callus and suspension culture cells were investigated for expression of IgE-binding proteins. Furthermore, RNA was extracted from all these tissues and subjected to in vitro translation in a cell-free wheat germ system.

Profilins constitute a novel family of functional plant pan-allergens.

Type I allergy is a major health problem in industrialized countries where up to 15% of the population suffer from allergic symptoms (rhinitis, conjunctivitis, and asthma). Previously, we identified a cDNA clone that encoded a birch pollen allergen as profilin. Profilins constitute a ubiquitous family of proteins that control actin polymerization in eukaryotic cells; in particular, profilin participates in the acrosomal reaction of animal sperm cells.

Profilin, a Novel Plant Pan-Allergen.

Recently we identified birch profilin as a novel pollen allergen which showed significant sequence homology with profilins from different eukaryotic organisms. Profilins were described to control actin polymerization and to participate in signal transduction via the phosphoinosite pathway, but have so far been unknown in plants. The ubiquitous occurrence of profilins in eukaryotes led us to the hypothesis that profilins may fulfill similar funtions in plants as known in other eukaryotes.

Hyposensitization therapy with whole pollen extract or purified allergens monitored by immunoblotting.

Patients allergic to grass pollen were hyposensitized with two major allergenic components or whole extract of timothy grass pollen. Specific IgE, IgG1, and IgG4 formed during immunotherapy were analyzed by immunoblotting. Similar antibody-binding patterns were observed in both patient groups.